Alternate U.S. Navy

Turrets

Both a three-gun turret and a four-gun turret are developed as part of the Mark V project, with the intent of making immediate use of the three-gun turret for the initial class of treaty armored cruisers and having the four-gun turret as an option for later classes of treaty cruisers and post-treaty cruisers.

The turrets have an elongated hexagonal gunhouse similar to those on the later classes of Standard type battleships, mounted on a cylindrical barbette of 30' diameter for the four-gun version or 26' diameter for the three-gun version. The gunhouse is subdivided by longitudinal bulkheads between the guns and a transverse bulkhead dividing the guns from the sighting equipment and rammers installed at the rear of the compartment. Below the gunhouse and within the barbette is the turret stalk, a multi-story cylindrical structure which rotates with the gunhouse. The stalk is four levels high in the “regular” deck level turret and five levels high in the taller superfiring variant.

The first and largest level of the stalk is the turret pan, which provides additional working space for the guns and their associated equipment. The gunhouse floor (shelf plate) is cut away to allow the gun breeches to depress and recoil into the pan when at higher elevations, and the pan floor is fully armored to to isolate the guns from the ammunition housed in the lower levels. The turret assembly is supported on a ring of tapered roller bearings directly under the pan floor, which in turn rests on a circular foundation extending all the way through the bottom of the hull. The lower levels of the stalk project down through the roller ring and are suspended within the foundation.

The second level of the stalk is the electrical deck, which houses most of the hardware for the powered operation of the turret. This level is slightly smaller than the pan deck since it fits within the inner circular foundation rather than the entire barbette tube, and is divided into a circular inner compartment and a ring-shaped outer compartment. The inner compartment is the powder transfer room, which houses the lower end of the upper propellant hoists, the upper end of the two lower propellant hoists, and the manned transfer equipment used to move sets of propellant bags between these hoists. The outer compartment houses the electric-hydraulic drive systems for turret traverse, gun elevation, and ammunition hoisting.

The third, fourth and (on superfiring installations) fifth levels of the stalk are projectile flats, which house the ammunition load of ten-inch cannon projectiles. Like the electrical deck, these levels are are divided into inner and outer compartments by a circular bulkhead. The small inner compartment provides a protected space for the two lower propellant hoists to pass through. The outer compartment houses shells on two independently rotating storage rings, one along the outer perimeter and one along the inner perimeter.

Mountings

The gun mountings developed for the Mark 5 utilize a modernized variant of the "grasshopper" counter-recoil system fitted to prior previous ten-inch and twelve-inch naval guns. Each gun is mounted on a pair of pivoting lever arms which transmit its firing recoil to a set of hydro-pneumatic recoil cylinders and recuperators mounted below and slightly to the rear. While more mechanically complex than a counter-recoil system mounted directly to the gun slide or carriage, this system minimizes the elevating mass of the system and moves the substantial bulk of the counter-recoil mechanism from the gunhouse to the turret pan.

Due to the combination of the grasshopper recoil mounting and the high maximum elevation specified for these mountings, the elevation gear uses a diagonal translating screw operated by an electro-hydraulic drive. The elevation range is -5 to +40 degrees, although the turret gun house openings go to 41 degrees because the gun barrels tip upward slightly when recoiling. The loading angle for the guns is +5 degrees and the elevation gear is configured with a hardwired preset to semi-automatically return the gun to this angle after firing.

Each gun mounting is serviced by a single-stage projectile hoist and a two-stage powder hoist, both electro-hydraulically driven. Projectiles are hoisted directly in line with the gun and transferred from vertical to horizontal by the loading tray as it unfolds to align with the open breech, then rammed into the firing chamber by a rigid chain drive. Powder bags are hoisted to the outboard side of the gun and placed in the breech by hand, then rammed to fit tightly against the projectile.

Gun

The 10"⁄45 Mark 5 naval gun itself is a "clean sheet" design which breaks away from the pre-dreadnought era Mark 3 and the improved but derivative Mark 4 which are used on previous dreadnought armored cruisers. Because prior research and operational experience had already demonstrated that excessive dispersion and short barrel life made muzzle velocities beyond 2,900 FPS impractical, the Mark 5 project focuses on developing as compact and lightweight a gun as possible and placing it in an optimized mount with high elevation capability and handling equipment for improved shells.

10-inch is far too large a caliber for a radially expanded monobloc barrel to be practical, so the Mark 5 guns are built using a hybrid approach in which the progressively rifled barrel liner and "A" tube are radially expanded, but the "B" jacket and two "C" reinforcing hoops are then built up over them. This is combined with a downward-opening Welin interrupted screw breech operated by the new Smith-Asbury geared action, which unifies the unscrewing, withdrawing, and swinging-open steps of the Welin breech into a single continuous lever movement.

Ammunition

The Mark 5 guns utilize seperate-loading bag ammunition with AP and HE shells propelled by a 225-pound charge of double-base smokeless powder (SPD).

In order to maximize the Mark 5's effective range and penetration against foreign battlecruisers, the Bureau of Ordnance develops a "double capped" armor piercing shell with both a relatively blunt penetrator cap and a highly streamlined (9crh) ballistic windscreen, as well as a tapered boat-tail base. This shell weighs 550 pounds and has a bursting charge of 20 lbs of ammonium picrate based "Explosive D" triggered by a base delay fuze. Fired at a muzzle velocity of 2,900 FPS and an elevation of forty degrees, it can reach ranges of up to 35,000 yards.

The high explosive shell is a high capacity projectile with the same physical dimensions as its AP counterpart. It weighs 550 pounds and has a bursting charge of 50 lbs of Explosive D, triggered by both a base delay fuze and a nose contact fuze. Muzzle velocity and range are the same as for the AP shell, which also enables the use of a blind loaded and plugged (BLP) version of this shell to be used as the sole practice round for Mark 5 armed cruisers.

Design

The Boston class cruisers have a standard displacement of 20,000 tons. In most respects they are enlarged and improved repeats of the pre-Treaty Phoenix class, with the notable addition of floatplanes for long-range scouting and spotting.

• USS Boston (CA-26)
• (CA-27)

Armament

The Bostons are armed with a main battery of twelve 10"⁄50 Mark 5 guns, a secondary battery of twelve 5"51 guns, and a tertiary battery of six 5"⁄25 anti-aircraft guns.

The main battery is placed in a conventional 2-A-2 configuration with superfiring pairs of three-gun turrets on the forward and aft centerline.

The secondary battery is arranged in six twin casemate mounts in the 01 level superstructure: two in the forward corners, two in the amidships sides, and two in the aft corners.

The tertiary battery is placed in high-angle pedestal mounts, one on each side of the forward 03 level, one on each side of the hangar roof, and one on each side of the aft 02 level. An additional sixteen 1.1"⁄75 anti-aircraft autocannons in four "Chicago Piano" quad mounts are added in the early 1940s, with further refits adding increasing numbers of 40mm Bofors and 20mm Oerlikon anti-aircraft autocannons.

Aircraft

The Bostons> have a modest aircraft hangar placed amidships between the funnels and the mainmast, flanked by two catapults and two cranes. Four floatplanes are carried, two on the catapults and two in the hangar.

• USS New York City (CA-28)
• (CA-29)

Design

The New York Cities have a standard displacement of 20,000 tons and measure 750 feet long at the waterline with a beam of 80 feet and a draft of 25 feet.

Armament

Propulsion

Aircraft

Design

The Alaska class cruisers have a standard displacement of 30,000 long tons and measure 750 feet at the waterline by a beam of 95 feet and a draft of 30 feet.

Armament

The Alaskas are armed with a main battery of nine 12"⁄50 Mark 8 guns in three three-gun turrets and a secondary battery of eighteen 5"⁄38 dual purpose guns in two triple and six twin turrets.

The primary battery is in a 3-A-0 configuration with all three turrets in a semi-superfiring trio on the forward centerline: #1 at the main deck level, #2 raised by one deck, and #3 raised by two decks. Although the all-forward battery layout was adopted on treaty era armored cruisers primarily as a function of weight savings, it was repeated in the post-treaty Alaskas on post-treaty as an optimally concentrated "chase" battery.

The secondary battery is arranged with two wing twin mounts on each side of the 01 level superstructure (abeam of the forward and aft deckhouses), one wing twin mount on each side of the 02 level superstructure (above and between the twin mounts on the same side), one centerline triple mount on the forward 03 level superfiring over the #3 main battery turret, and one centerline triple mount at the end of the aft 02 level.

Propulsion

The Alaskas are large enough for the USN's preferred turbo-electric propulsion to be reasonably weight-efficient, utilizing a more compact variant of the high pressure plant developed for the North Carolina class battleships. This has six oil-fired boilers feeding 600 PSI, 850 F superheated steam to three paired sets of turbines.

In order to fit efficiently within the confines of the smaller cruiser hull, the unit systems are arranged in a two-deck stacked configuration, with three turbogenerator rooms longitudinally across the centerline of the machinery deck, six boiler rooms and three auxiliary machinery rooms on the mid-deck directly above them. Each generator room contains a high-pressure and low-pressure turbine pair, one 450-volt AC main turbogenerator, and two 120-volt DC ship’s service turbogenerators.

Three motor rooms are placed aft of the generator rooms, with the centerline motor room containing the six 12,500 horsepower double armature electric motors for both inboard shafts and the port and starboard motor rooms contianing three of the same motors for one outboard shaft each. Total system output is thus 150,000 SHP.